C++ Questions and Answers

Miroslav Cetojevic

10:16

so std::iterator is deprecated in C++17

if you wanted to implement an iterator for your own class, how would you do it without std::iterator?

milleniumbug

it wasn't relevant long time before that

the only thing it did was defining the typedefs

you can literally do it yourself

Miroslav Cetojevic

yeah, but so it can be used by the STL

milleniumbug

again, you don't need std::iterator

Miroslav Cetojevic

why write it yourself if the STL has already done all the work for you?

milleniumbug

before and after

25

A: Preparation for std::iterator Being Deprecated

The discussed alternatives are clear but I feel that a code example is needed. Given that there will not be a language substitute and without relying on boost or on your own version of iterator base class, the following code that uses std::iterator will be fixed to the code underneath. With std...

note how the version without std::iterator is not only the same length, but also more readable too

Miroslav Cetojevic

10:23

what about std::iterator_traits?

milleniumbug

what about it

it's not going anywhere

Miroslav Cetojevic

suppose you were writing your own container and wanted it to work with STL algorithms that require iterators, how would you go about it?

milleniumbug

follow the requirements for containers

en.cppreference.com/w/cpp/named_req/SequenceContainer

as for iterators, en.cppreference.com/w/cpp/named_req/RandomAccessIterator

(for random access iterators)

ratchet freak

ducktyping is the name of the game here, you just need to implement a class that looks like an iterator and the STL algorithms will use them as if they were iterators

Miroslav Cetojevic

11:23

@ratchetfreak an example, then?

heard about ducktyping, but I don't actually know what it is

milleniumbug

1 hour ago, by milleniumbug

25

A: Preparation for std::iterator Being Deprecated

The discussed alternatives are clear but I feel that a code example is needed. Given that there will not be a language substitute and without relying on boost or on your own version of iterator base class, the following code that uses std::iterator will be fixed to the code underneath. With std...

Miroslav Cetojevic

ah, so the only thing that matters is that the expected operations are provided

reminds me a bit of Java interfaces, except it feels like Java went only halfway there

Gaurang Tandon

17:02

Hey all, I was learning dynamic memory allocation in C today and stumbled upon this line in Wikipedia:

> Creating an array of ten integers with automatic scope is straightforward in C:

> int array[10];

> However, the size of the array is fixed at compile time. If one wishes to allocate a similar array dynamically, the following code can be used:

> int * array = malloc(10 * sizeof(int));

However, I can very well declare a variably sized array without malloc like so:

int N;
scanf("%d", &N);
int a[N];
for(int i = 0; i < N; i++){
    scanf("%d", &a[i]);
}

printf("N is %d\nElements are", N);
for(int i = 0; i < N; i++){
    printf("%d ", a[i]);
}

then:

1. what's the point of malloc?
2. isn't the statement given on wikipedia wrong?

milleniumbug

These are so called VLAs, and do indeed allow creating arrays of size not known at compile time. But! These still are stored on the stack, which is a limited resource.

Note that only C99 and later allow for VLAs. Also, C11 made support for VLAs optional.

ratchet freak

and C++ doesn't officially have VLAs, (compiler extensions notwithstanding)

Gaurang Tandon

oooh... nice, thanks!

:)

milleniumbug

malloc, on the other hand, uses the heap, so you could have, for example, arrays sized in gigabytes.

Gaurang Tandon

hmm...that's quite big!

ratchet freak

17:09

if you compile to 64 bit at least

milleniumbug

Of course, the limit is your RAM here.

ratchet freak

well technically it's your RAM+swapspace

Gaurang Tandon

ahhh...so the heap goes on the primary storage

milleniumbug

(well, more accurately, what your OS's virtual memory allows, but swapping pages to disk is slooooooooow, so you wouldn't want that)

Gaurang Tandon

hmm

Miroslav Cetojevic

17:59

today I found out that the STL implements operator overloading arithmetic, relational and logical operators, which I thought is awesome

but they effectively just call the corresponding operator on objects passed on them, don't they?

seems redundant to me

I'm talking about std::plus, ` std::equal_to`, etc.

from the functional header

Jerry Coffin

@MiroslavCetojevic Those are mostly leftovers from the pre-lambda days. Using them would be pretty rare nowadays.

Gaurang Tandon

Hey, can anyone help me to read the docs to see where exactly it states that printing the value of an unintialized pointer is undefined behavior? Or does it not say that anywhere? I have been reading the list from here https://gist.github.com/Earnestly/7c903f481ff9d29a3dd1 and this is the only possibly related point I found

> The pointer passed to a library function array parameter does not have a value such that all address computations and object accesses are valid (7.1.4).

Just to be clear I am talking about such a code:

int *ptr;

printf("The value of ptr is %p", ptr);

Jerry Coffin

18:17

That gives undefined behavior, if for no other reason than a type mismatch. "%p" expects a pointer to void, so passing a pointer to int gives UB. Correct that, and you still get 7.1.4/1: "If an argument to a function has an invalid value
(such as a value outside the domain of the function, or a pointer outside the address space of the program, or a null pointer, or a pointer to non-modifiable storage when the corresponding parameter is not const-qualified) or a type (after promotion) not expected by a function with variable number of arguments, the behavior is undefined." In your case, ther…

milleniumbug

more quotes:

> If an object that has automatic storage duration is not initialized explicitly, its value is indeterminate.

> indeterminate value: either an unspecified value or a trap representation

...actually wait, not sure if I can prove anything from that one

Gaurang Tandon

18:45

@JerryCoffin woah wonderful...that's perfect, thanks!

wait what...""%p" expects a pointer to void, so passing a pointer to int gives UB" we did this in class all day o.O

int *ptr = (int*) malloc(8);
printf("The address of ptr is %p", ptr);

this is what our prof taught us today to be today

do you mean to say that - every time I print a type* pointer, where type != void, I need to do sth like this: printf("The address of ptr is %p", (void*) ptr); to ensure no-UB?

Miroslav Cetojevic

no, it will print the address like normal

Mgetz

@GaurangTandon look at C pointer casting rules, it's UB in C++ but not C

Gaurang Tandon

oh that

good catch

milleniumbug

wait wait

Mgetz

yes the implicit cast to void* is legal in C

but not C++

milleniumbug

18:51

printf("The address of ptr is %p", ptr); with int* ptr = ???; is still UB both in C and C++

Gaurang Tandon

so if I use cast to void* before printing - in both C and C++ - it won't be UB. Agreed?

@milleniumbug yah sorry i forgot to specify that this ptr I was talking about was different

milleniumbug

(I've yet to see it break, but I'd rather be too careful than not careful enough)

Mgetz

@milleniumbug pretty sure that's not the case

in C when you pass a pointer to a variadic function the pointer is implicitly cast to void*

milleniumbug

looking through C standard now

Mgetz

I wouldn't be surprised if it wasn't specified or I'm wrong

but by virtue of POSIX it will work in most cases

milleniumbug

19:01

[7.16.1.1 of N1570] If there is no actual next argument, or if type is not compatible with the type of the actual next argument (as promoted according to the default argument promotions), the behavior is undefined, except for the following cases:
— one type is a signed integer type, the other type is the corresponding unsigned integer type, and the value is representable in both types;
— one type is pointer to void and the other is a pointer to a character type.

If the expression that denotes the called function has a type that does not include a
prototype, the integer promotions are performed on each argument, and arguments that have type float are promoted to double. These are called the default argument promotions.

Mgetz

@milleniumbug is pointer promotion discussed at all in the default argument promotions?

otherwise you're right

milleniumbug

If the number of arguments does not equal the number of parameters, the
behavior is undefined. If the function is defined with a type that includes a prototype, and either the prototype ends with an ellipsis (, ...) or the types of the arguments after promotion are not compatible with the types of the parameters, the behavior is undefined.
If the function is defined with a type that does not include a prototype, and the types of
the arguments after promotion are not compatible with those of the parameters after promotion, the behavior is undefined, except for the following cases:

— one promoted type is a signed integer type, the other promoted type is the
corresponding unsigned integer type, and the value is representable in both types;
— both types are pointers to qualified or unqualified versions of a character type or
void.

so it could be valid if "int* is compatible with void*"

Mgetz

which is guaranteed true IIF the system meets POSIX

otherwise it's not

milleniumbug

[6.7.6.1.2 of N1570] For two pointer types to be compatible, both shall be identically qualified and both shall be pointers to compatible types.

Mgetz

@milleniumbug that said AFAIK anything is implicitly castable to void* in C except function pointers

milleniumbug

19:18

Can't find whether int is compatible with void or not, but I'm going to assume it's not

Mgetz

@milleniumbug then that means that literally every int* foo = malloc(sizeof(int) *4); is UB

milleniumbug

how is that relevant

int* foo = malloc(sizeof(int) *4); converts fine, and nobody questioned this

adding printf("The address of ptr is %p", ptr); there makes it UB, because you're passing an int* to as %p

Mgetz

@milleniumbug actually just read on casting, it's not UB because C casting rules allows it

en.cppreference.com/w/c/language/cast

> Any pointer to object can be cast to any other pointer to object. If the value is not correctly aligned for the target type, the behavior is undefined.

> Any pointer type can be cast to any integer type. The result is implementation-defined, even for null pointer values (they do not necessarily result in the value zero). If the result cannot be represented in the target type, the behavior is undefined (unsigned integers do not implement modulo arithmetic on a cast from pointer)

milleniumbug

Irrelevant

Passing to a vararg function doesn't cast it

Mgetz

how, but it does implictly

milleniumbug

19:25

See above draft quote about what operations are done on arguments passed to vararg functions.

Mgetz

the point is more that reading a int* as a void* is allowed particularly if you're casting it to an integer type to print

I read it, but my point is that it's irrelevant

because the types are 100% convertible

milleniumbug

They can be converted, but they won't be converted

Because caller doesn't know how will callee invoke va_arg

Mgetz

3 mins ago, by Mgetz

> Any pointer to object can be cast to any other pointer to object. If the value is not correctly aligned for the target type, the behavior is undefined.

it doesn't matter

void* can have any alignment so it's valid to convert any pointer to void*

insofar as you don't try to deref it, it's not UB

milleniumbug

p The argument shall be a pointer to void. The value of the pointer is converted to a sequence of printing characters, in an implementation-defined manner.

1 hour ago, by Jerry Coffin

That gives undefined behavior, if for no other reason than a type mismatch. "%p" expects a pointer to void, so passing a pointer to int gives UB. Correct that, and you still get 7.1.4/1: "If an argument to a function has an invalid value
(such as a value outside the domain of the function, or a pointer outside the address space of the program, or a null pointer, or a pointer to non-modifiable storage when the corresponding parameter is not const-qualified) or a type (after promotion) not expected by a function with variable number of arguments, the behavior is undefined." In your case, ther…

Mgetz

You're missing what I'm saying and I don't feel like arguing or typing up a question

159

A: Correct format specifier to print pointer or address?

The simplest answer, assuming you don't mind the vagaries and variations in format between different platforms, is the standard %p notation. The C99 standard (ISO/IEC 9899:1999) says in §7.19.6.1 ¶8: p The argument shall be a pointer to void. The value of the pointer is converted to a sequ...

I can't argue with a compiler dev... the short answer is that it's up for debate and some compilers do one and others do the other

gcc.gnu.org/bugzilla/show_bug.cgi?id=26542

milleniumbug

19:38

These two links pretty much confirm that it is UB, but no real implementation so far actually makes it a problem. (which is good IMO)

Mgetz

Yeah, I'm fine being wrong. I suspect most C programs have similar UB.

Miroslav Cetojevic

is it possible to use a lambda as the first argument in std::bind?

directly doesn't work, but is there a workaround?

(don't ask why, it doesn't matter)

Mgetz

@MiroslavCetojevic you can, but don't

milleniumbug

my recommendation is to avoid std::bind altogether, but I can't come up with any reason why it shouldn't work, would have to check it out on a real sample

Mgetz

you have to name the lambda

Miroslav Cetojevic

19:46

doesn't work

milleniumbug

SSCCE please

Mgetz

auto foo = [](int a){}; auto bar = std::bind(foo, 1); should work... but seriously don't do that

Miroslav Cetojevic

true, I should have used auto from the start

@Mgetz it's not production code or anything anyone is going to use

Mgetz

godbolt.org/z/bw8Ba_

@MiroslavCetojevic a lambda should replace bind

Miroslav Cetojevic

I'm just implementing a basic function table à la C++ Primer, and bind/lambdas are just two of several ways to store functions

I'm trying as many as I know

Mgetz

19:52

@MiroslavCetojevic forget bind exists

you'll save yourself pain and performance hits

Miroslav Cetojevic

I'll keep that in mind, thanks

Miroslav Cetojevic

20:06

std::function is pretty good for creating a function table

are there other uses?

milleniumbug

std::function is pretty much needed every time you need to store a function for later use, as opposed to passing it for temporary use of a function (like all C++ standard library algorithms do)

Miroslav Cetojevic

but that can be done with named lambdas and bind, too

what sets std::function apart?

Andreas DM

Does anyone have any tip about how I might split up this code to run with 4 threads? This is like a small example of a program that prints out all combinations from a -> ZZZ termbin.com/o88i

is there a way to give the threads equal amount of work with this recursive implementation?

user7659542

20:35

Do you believe I should:
- only declare variable when I know I will use them not at the top of my function
- the variable should always be const if it is read only

user7659542

eg:

user7659542

void bar(int y)
{
    const int status = foo(x);
    if (status == -1)
    {...}
}

user7659542

in stead of

user7659542

void bar(int y)
{
    int status = 0;
    status = foo(x);
    if (status == -1)
    {...}
}

milleniumbug

@MiroslavCetojevic Not really. You can't store it like this.

(or rather, you could store it, but only that one lambda, and no any other function)

@traducerad Definitely declare variables at first usage

user7659542

20:38

@milleniumbug so you'd always go for the first example never the second?

user7659542

at school for example I remember it was usual for everybody to declare and initialize all their variable at the beginning of their functions

milleniumbug

only case I would prefer the second would be if I had sth like this

user7659542

I believe there even are standards that require to declare everything at the top (misra-c)?

milleniumbug

int status;
status = foo(x);
if (status == -1)
{...}
status = bar(x);
if (status == -1)
{...}

(yes, status is left uninitialized here on purpose)

but even then

user7659542

@milleniumbug Hmm, very realistic case as well...

milleniumbug

20:39

there are alternatives like

user7659542

@milleniumbug you savage...

milleniumbug

{
    const int status = foo(x);
    if (status == -1)
    {...}
}
{
    const int status = bar(x);
    if (status == -1)
    {...}
}

or, if it happens often enough

foo_wrapper(x, [&](){ /* on invalid */ });
bar_wrapper(x, [&](){ /* on invalid */ });

user7659542

@milleniumbug I hope nobody does that in real life. Adding braces just to create an additional scope like this is very sad to see

milleniumbug

I disagree. Such braces are very useful in several situations.

For example, it can be a first step when refactoring code into a separate function.

It also makes it explicit that these two fragments are effectively separate

(which, depending on use case, can be either a good thing or a bad thing)

user7659542

@milleniumbug ok, but you don't leave it like that

user7659542

20:44

btw what is this [&]?

milleniumbug

If you have several test case inputs in your unit tests, you can name your variables as actual and expected in separate scopes, and call the assert in each scope

[&](){ ... } is a C++ lambda.

user7659542

Oh yhea right I am in the cpp room x)

milleniumbug

Since you mentioned MISRA-C I'm going to assume it doesn't apply to you

user7659542

@milleniumbug yep, I am not very fluent at cpp

milleniumbug

In C, there is a reason why you want to declare all your variables at the beginning of the block - to be compatible with C89

user7659542

20:46

@milleniumbug is this still relevant in 2018?

Mgetz

@traducerad we require them in our coding standards at my work because we've had waaay too many bugs because people left them off

user7659542

@milleniumbug do you think it is overkill to declare them as const?

Mgetz

and in most non-C languages it's a compiler error to have blocks without a preceding statement

user7659542

@Mgetz What s the rationale for using this?

milleniumbug

@traducerad Depends on your toolset and environment. Some still aren't updated to handle C99 or C11.

Mgetz

20:47

@traducerad on ifs? because we've had bugs

ditto loops

milleniumbug

(one of these is MSVC, which is mostly focused on C++ development - though not sure what is the current situation, only what was the C situation back in 2013 - maybe Mgetz knows more how MSVC handles C nowadays)

Mgetz

@milleniumbug I think they might support it now only to support a few projects

milleniumbug

@traducerad Not overkill. It does what it's supposed to. It's a clear message both to the reader of the code and to the compiler that this variable is not supposed to be modified.

Miroslav Cetojevic

@milleniumbug well, can you think of cases where std::function does what lambdas or std::bind can't do or are inappropriate?

milleniumbug

again, storing an arbitrary function

auto f = [](){ return 1; }; // ok
f = [](){ return 2; }; // will fail to compile
f = [](){ return 1; }; // also will fail to compile

std::function<int()> f = [](){ return 1; }; // ok
f = [](){ return 2; }; // ok
f = [](){ return 1; }; // ok

each individual lambda is of an unique anonymous type

Miroslav Cetojevic

21:00

understood

milleniumbug

auto deduces the type of the first lambda, and makes the two later assignments a compiler error, because these are completely different types

Miroslav Cetojevic

I guess it's best used together with an algorithm that expects an uniform function interface

milleniumbug

52 mins ago, by milleniumbug

std::function is pretty much needed every time you need to store a function for later use, as opposed to passing it for temporary use of a function (like all C++ standard library algorithms do)

the former is what, for example, GUI handlers are, and the latter is std::sort

std::sort is perfectly fine with not using std::function, it can just accept a template parameter

Miroslav Cetojevic

are there library functions that use or expect a std::function?

milleniumbug

Can't come up with any in the C++ standard library off the top of my head

Miroslav Cetojevic

21:05

ok, then how do GUI handlers relate to std::function? I've never done a GUI with C++

milleniumbug

You want to pass in a function that will be called when a button is clicked, for example

The function is stored in a button, and the button class calls it later

Miroslav Cetojevic

@milleniumbug and if several buttons want to use that function, they all need to call it with the same number and same types of arguments, right?

milleniumbug

yes

Miroslav Cetojevic

hm, so that's why C++ Primer uses it to implement a simple calculator (conceptually anyway)

pass two ints and get an int back (for example), can be done for addition, subtraction, multiplication, division and modulo

user7659542

surprised there isn't even a GNU macro or smth available: stackoverflow.com/a/16623241/7659542

user7659542

21:14

to know which field of a union is used

milleniumbug

In C++ we have boost::variant and std::variant, which satisfy that common use case

But C generally doesn't bother to address use cases people have been dealing with for the last 40 years

user7659542

@milleniumbug maybe they ll do that in C14 or a later revision of the C standard

user7659542

lets hope

milleniumbug

It's pretty much a relatively portable assembly language at this point.

Jerry Coffin

@Mgetz In this case, that's not true. You certainly can convert a pointer to some other object type to be a pointer to void--but in some cases, that conversion may be a real conversion, not just telling the compiler "shut up, I know what I'm doing". Though they're not entirely mainstream, there are architectures for which this really matters.

For example, some DSPs have a number of separate address spaces. When you convert a pointer into an individual address space to become a pointer to void, it zero extends the pointer to a fixed size. If you don't do that zero extension, when printf tries to access the address, it'll try to read data that's not present, and life gets unpleasant.

Mgetz

21:25

@JerryCoffin you completely missed the link to Jonathan Leffler's answer after that

@JerryCoffin good old FAR pointers

Jerry Coffin

@Mgetz I didn't completely miss it, but it was long enough that if it addressed the question at hand, that was more or less hidden among other stuff.

Mgetz

@JerryCoffin it said it was de-facto implementation defined but that unless you were sure of your implementation you should treat it as UB.

it also had a bit of discussion about POSIX which has pointer size guarantees

Jerry Coffin

@Mgetz Similar anyway, yeah. the difference is that even on MS-DOS, a far pointer was always the same size. In this case, even pointers to different parts of the data can end up as different sizes (many are specialized for doing things like FIR filters, which do a MAC between input data and some coefficients, so they have an entire separate memory bus for the coefficient data).

Mgetz

@JerryCoffin Oh I figured, I'm well aware of pointers on IBM Z-series systems too, which are another insane 128bit monster

in all honesty that stuff fascinates the crap out of me

Jerry Coffin

21:44

@Mgetz You'll probably get over that.

Mgetz

22:03

@JerryCoffin haven't yet

Transcript for

C++ Questions and Answers